EP1662779A1 - Video display apparatus and display method - Google Patents

Abstract

The apparatus has an input for the supply of a video signal (VS), and a signal processor (13) for processing of the video signal. A display is provided for the image representation, provided with a video signal. A detector (17, 18), supervises a given range before the screen (11) on objects existing within the range, and a detection signal (S18) is produced. The video signal (DS), which can be represented, is formed in accordance with condition of the detection signal (S18) from the supplied video signal (VS). An independent claim is included for a method.

Description

Video display apparatus and method for processing a video signal to optimize image presentation

The present invention relates to a video display apparatus and a method of processing a video signal and displaying the video signal on a display device.

In flat panel televisions, such as LCD panels or plasma displays, image enhancement techniques are typically implemented to improve image presentation, for example, to provide a viewer with an impression of optimal presentation, i. a representation with high image sharpness, high depth of field, high contrast low noise, etc., to produce. A method for increasing the image sharpness is, for example, in Rieder, Peter; Scheffler, Günter: "New Concepts on Denoising and Sharpening of Video Signals".

The parameters of these image processing methods are set so that an optimum image impression for the human eye is produced when the image is viewed from a distance which corresponds to 4 times to 6 times the screen diagonal. When viewed from a smaller distance, in particular from a distance which is less than twice the screen diagonal, television sets which use modern image processing methods for optimizing the image presentation give the human eye the impression of a noisy "pixel cloud" -containing image ,

The parameters of these image processing methods can be set within predetermined limits by the user, for example via the remote control, in order to obtain an optimum visual impression from different distances. Factory Default settings of the devices are usually such that the optimal impression is obtained at the recommended viewing distance (4 to 6 times screen diagonal).

While a viewer usually keeps to the recommended distance, if only to capture the entire image, potential customers typically approach the device significantly before purchasing. The impression of a noisy picture obtained from close proximity can lead to customers deciding against the device, even though viewing the image from the optimal distance gives the viewer the impression of good image presentation.

The aim of the present invention is therefore to provide a video display device and a method for processing a video signal and displaying an image content represented by the video signal, in which an image representation which is always optimal for the viewer is ensured.

This object is solved by a video display apparatus according to claim 1 and a method of processing a video signal according to claim 12. Advantageous embodiments of the invention are the subject of the dependent claims.

The video display device according to the invention has an input for supplying a video signal, at least one signal processing device for processing the video signal and a display device which has a screen and to which a video signal to be displayed is supplied for image presentation. In addition, a distance detector device is provided, which is designed to monitor a predetermined spatial area in front of the screen on objects present in this area and to generate a detection signal, wherein the video signal to be displayed is formed in accordance with the detection signal from the supplied video signal.

The display device according to the invention, in which a processing of the supplied video signal takes place depending on the presence of an object in a monitored spatial area in front of the screen, can be configured so that an optimal subjective image representation is always guaranteed for a viewer staying in front of the screen.

In an embodiment it is provided that the supplied video signal is processed by the signal processing device in dependence on the detection signal, i. the detection signal is used to set processing parameters of the signal processing device. Adjustable image parameters include image contrast, image sharpness and depth of focus, the amount of noise reduction, or image saturation. The processing of the video signal in the signal processing circuit is carried out, for example, by using a look-up table which serves to map each signal value of the video signal to a signal value of the output signal provided at the output of the signal processing circuit. In this case, at least two look-up tables can be present in the signal processing circuit, which effect a different signal processing. Of these look-up tables, one is selected depending on the detection signal to determine the processing characteristic.

The detection signal is an at least two-valued signal which assumes a first signal level when no object is detected in the area to be monitored and which assumes a second signal level when an object in the area to be monitored is detected. By way of such a bivalent detection signal, two different processing characteristics can be set. For example, if a viewer is within the monitored area, that is very close to the screen, signal processing measures are reduced, although from a distance provide a very good impression of the image, but when viewed from close up, it gives the impression of a noisy picture. These processing measures may also be completely omitted if the detection signal indicates that the viewer is within the monitored area.

The distance detector device may also be configured to reduce the actual distance between the object, i. a viewer, and to determine the screen, wherein the signal processing circuit is configured in this case to adjust the signal processing parameters on the detection signal depending on the distance of the viewer to the screen to signal processing measures that arise when viewing the image from close a noisy image impression let reduce with decreasing distance between the viewer and the screen.

The monitored by the distance detection device area is preferably dependent on the screen size of the screen and is for example within a distance from the screen, which is less than 4 times, preferably less than twice a screen diagonal of the screen.

In a further embodiment of the video display device is provided to supply the video signal of the signal processing device for processing only if no object is detected within the monitored area. If an object is detected within the monitored area, ie a viewer is very close to the screen, the signal processing device is bypassed and the supplied video signal is fed directly to the display device for displaying the image content represented by the video signal. A processing of the video signal is omitted.

As a sensor for detecting an object within the monitored area, the distance detecting device preferably comprises an infrared sensor, which is preferably designed so that only moving, a temperature above ambient temperature having objects are detected.

To detect the distance between the screen and an object, i. an observer approaching the screen, an ultrasonic sensor that can be combined with an infrared sensor or that can be used as the sole sensor is suitable.

The video display device is preferably designed such that the video signal to be displayed, supplied to the display device, is generated from the supplied video signal according to a presetting, if the distance detection device detects no object in the monitored area for a period of time that is longer than a predetermined period of time, ie then when a viewer has left the area monitored by the distance detection device in front of the screen.

Figur 1

zeigt schematisch ein erfindungsgemäßes Videoanzeigegerät mit einer einen Bildschirm aufweisenden Anzeigevorrichtung und einer Abstandsdetektorvorrichtung.

Figur 2

zeigt schematisch eine Draufsicht auf den Bildschirm der Anzeigevorrichtung und veranschaulicht beispielhaft die Position eines an dem Bildschirm angeordneten Abstandssensors.

Figur 3

zeigt schematisch ein weiteren Ausführungsbeispiel des erfindungsgemäßen Videoanzeigegerätes.

The present invention will be explained in more detail with reference to figures.

FIG. 1

schematically shows a video display device according to the invention with a display device comprising a screen and a distance detection device.

FIG. 2

schematically shows a plan view of the screen of the display device and exemplifies the position of a arranged on the screen distance sensor.

FIG. 3

schematically shows a further embodiment of the video display device according to the invention.

In the figures, unless otherwise indicated, like reference numerals designate like components and signals of equivalent meaning.

Figure 1 shows schematically the structure of a first embodiment of a video display device according to the invention. The video display device has an input for supplying a video signal VS. This video signal VS represents an image sequence whose content is to be displayed. The video signal VS is supplied in the example to a signal processing device 13 which processes the supplied signal VS in order to provide a processed signal FS. This signal FS is fed to a display device which has a screen 11 which serves to display the image content of the signal FS. The screen is a flat screen, for example an LCD screen or a plasma screen, which is shown schematically in plan view in FIG. Denoted at 100 in FIG. 1 is a viewer who is at a distance d1 from the screen 100. The reference numeral 12 in FIG. Designates a well-known control circuit for the screen 11, which has, for example, an image memory for temporarily storing the image to be displayed on the screen 11.

In the signal processing device 13, basically known signal processing methods, for example methods for image sharpness enhancement and / or depth-of-focus generation, are implemented, which in a known manner serve to improve the subjective image impression for a viewer who is at a recommended distance from the screen 11. This recommended distance is usually 4 times to 6 times a screen diagonal d2 of the screen 11, which is shown in Figure 2 in plan view of a display area 112.

The video signal VS supplied to the signal processing device 13 may have already undergone further signal processing measures in a manner not shown, for example those which generate a video signal with a frame sequence for display on the screen from a television signal representing a field sequence.

The processing characteristic of the signal processing circuit 13 is adjustable via a setting signal or parameter signal PS. By way of this setting signal PS, for example, the processing parameters of this signal processing device 13 are predetermined. The adjustability of the signal processing device 13 basically opens up the possibility for a user to change the presentation effects caused by the signal processing device, for example a particularly pronounced image sharpness or a particularly pronounced depth of field. The adjustment by the user can be done in a well-known manner via a remote control 16 which, triggered by a user sends a suitable signal to a receiver 15 of the remote control 16. This receiver 15 is connected to a parameter signal generating circuit 14 which provides the parameter signal PS to the signal processing device 13, whereby the user can influence the setting of this parameter signal PS via the remote control 16.

According to the invention, the video display device has a distance detector device 17, 18, which monitors a region 200 located on the viewing side 110 in front of the screen 11 as to whether an object is present in this monitored area 200, ie whether a viewer is in this area 200. The distance detector device has a sensor 17 and an evaluation circuit 18 connected to the sensor 17. This evaluation circuit 18 is coupled to the parameter signal generating circuit 14 to be dependent from the presence of a viewer 100 in the monitored area 200 to influence the processing of the video signal VS in the signal processing device 13.

The sensor 17 is, for example, an infrared motion sensor which, in a first embodiment, provides a bivalent sensor signal SS which assumes a first signal level when the sensor 17 detects a moving object within the monitored area 200 and otherwise assumes a second signal level. The evaluation circuit 18 evaluates this sensor signal SS to influence the processing characteristic of the signal processing device 13, depending on the sensor signal SS via the parameter signal generating circuit 14. The parameter signal generating circuit 14 and the evaluation circuit 18 are matched to one another such that the signal processing device 13 is supplied by the user via the remote control 16 or factory preset parameter PS when the sensor 17 detects no moving object within the monitored area. Upon detection of a moving object in the monitored area 200, the processing characteristic is changed via the parameter signal PS such that a subjectively optimal image impression results for a user 100 located within the monitoring area 200. For this purpose, the signal processing device 13 is supplied by the parameter signal generating circuit 14, driven by the sensor evaluation circuit 18, to a parameter signal PS in accordance with a further presetting.

In an embodiment in which the signal processing device 13 is a signal processing circuit for image sharpness enhancement and / or depth-of-field generation, it is provided that upon detection of a moving object within the surveillance area 200 the signal processing parameters are adjusted so that the video signal VS the signal processing device 13 unprocessed - if necessary delayed - happens. It has been found that the signal processing device measures for image sharpness enhancement and depth of field generation leads to a subjectively poorer image impression at a small distance, especially when viewing the displayed image, than without performing these signal processing device measures.

In a further embodiment, it is provided that the sensor 17 not only monitors the area 200 to determine whether an object is located in this area, but that the sensor 17 also determines the distance d1 of this object 100. In accordance with the information about the distance of the object from the screen 100, in this embodiment the evaluation circuit 18 adjusts the parameter signal PS as a function of the distance of the object 100 to the screen 11. In this embodiment, the sensor is embodied, for example, as an ultrasound sensor or additionally to the infrared motion sensor, an ultrasonic sensor.

With reference to FIG. 2, the sensor 17 is integrated, for example, in a frame 111 surrounding the display area 112 of the screen 11. The sensor 17 is adapted to an approximately semicircular in plan view area in front of the viewing side 110 of the screen on the presence of an object. The evaluation circuit 18 is preferably designed to influence the signal processing device characteristic via the parameter signal generating circuit 14 after detection of a moving object in the monitored area 200 for a predetermined period of time and this influence after a predetermined period of time within which no object detected in the monitored area 200 more is going to take back.

FIG. 3 shows a further embodiment of a video display device according to the invention. In this embodiment, a bypass circuit is provided for the signal processing circuit 13. This bypass circuit includes a first switch 21, which is connected upstream of the signal processing circuit 13, and a second switch 22, which is the signal processing circuit 13 downstream. The bypass circuit further comprises a signal path 23 bypassing the signal processing circuit 13 and is adapted to supply either the video signal VS to the signal processing circuit 13 and to supply the processed signal FS as the signal DS to be displayed to the display device 11, 12, or the video signal VS bypassing the signal processing circuit 13 directly to the display device 12, 13 as a signal DS to be displayed. The control of the two switches 21, 22 via the evaluation circuit 18 of the sensor 17, wherein the evaluation circuit 18 and the bypass circuit 21, 22 are coordinated so that the signal processing circuit 13 is bypassed when the sensor 17 is an object within the monitored Area 200 detected in front of the viewing side 110 of the screen 11.

The bypassing of the signal processing circuit 13 is reversed, for example, if, after detection of an object within the monitored area 200, no object within the monitored area 200 has been detected for a predetermined period of time.

In addition to the described infrared motion sensors and ultrasound sensors, it is of course also possible to use any other sensors in connection with the video display device according to the invention, which are suitable for detecting an object, preferably a moving object, within a monitored area 200 in front of the screen 11.

The monitored area 200 preferably includes those areas whose distance from the screen 11 is less than a viewing distance recommended for flat screens. This recommended viewing distance is usually 4 to 6 times the screen size. The monitored area is preferably selected to include areas whose distance from the screen is less than four times the screen diagonal, preferably less than two times the screen diagonal, from the generation of the signal DS to be presented to the display device 11, 12 the video signal VS only affect when a viewer 100 the screen 11 unusually strong.

In a further embodiment, it is provided to determine the distance of the user from the screen using the remote control, which is assumed that the user carries the remote control with him. For determining the distance of the user to the screen, the distance sensor 17 arranged on the screen could be designed to transmit an interrogation signal to the remote control 16 at regular time intervals, to which the remote control 16 sends back a response signal. From the time difference between the transmission of the interrogation signal and the receipt of the response signal, the distance between the user, ie the remote control of the user, and the screen can be determined.

d1

Bildschirmabstand des Betrachters

d2

Bildschirmdiagonale

DS

darzustellendes Signal

FS

verarbeitetes Signal

PS

Einstellsignal, Parametersignal

SS

Sensorsignal

VS

Videosignal

11

Bildschirm

12

Bildschirm-Ansteuereinheit

13

Signalverarbeitungsvorrichtung

14

Parametersignalerzeugungsschaltung

15

Fernbedienungsempfänger

16

Fernbedienung

17

Sensor

18

Auswerteschaltung

23

Signalpfad zur Umgehung der Signalverarbeitungsvorrichtung

21, 22

Schalter

100

Betrachter

110

Betrachtungsseite

111

Rahmen des Bildschirms

112

Darstellungsbereich des Bildschirms

200

überwachter Bereich

LIST OF REFERENCE NUMBERS

d1

Screen distance of the viewer

d2

screen size

DS

signal to be displayed

FS

processed signal

PS

Setting signal, parameter signal

SS

sensor signal

VS

video signal

11

screen

12

Control unit screen

13

Signal processing device

14

Parameter signal generating circuit

15

remote receiver

16

remote control

17

sensor

18

evaluation

23

Signal path for bypassing the signal processing device

21, 22

switch

100

observer

110

viewing side

111

Frame of the screen

112

Display area of the screen

200

monitored area

Claims (18)

A video display device, comprising: an input for supplying a video signal (VS), at least one signal processing device (13) for processing the video signal (VS), a display device (11, 12) which has a screen and to which a video signal to be displayed is supplied for image presentation, a distance detector device (17, 18) which is designed to monitor a predetermined area in front of the screen (11) on objects present in the area and which generates a detection signal (S18), the video signal (DS) to be displayed being determined in accordance with Detection signal (S18) from the supplied video signal (VS) is formed. Video display device according to claim 1, in which the supplied video signal (VS) is supplied to the signal processing device (13), in which the signal processing device (13) provides the video signal (DS) to be displayed, - In which the signal processing device (13) has an input (131) for setting signal processing parameters, wherein this input (131) via the detection signal (S18) variable adjustment signal (PS) is supplied. A video display apparatus according to claim 2, which is arranged such that a processing of the video signal (VS) by the at least one signal processing device (13) is omitted, when the detection signal (S18) indicates an object within the monitored area (200). A video display apparatus according to claim 1, wherein a bypass circuit (21, 22) is provided which supplies the supplied video signal (VS) to the signal processing apparatus (13) in accordance with the detection signal (S18) and an output signal (FS) of the display apparatus (11, 12), or supplies the supplied video signal (VS) directly to the display device (11, 12) as a signal (DS) to be displayed. A video display apparatus according to claim 4, wherein the bypass circuit directly supplies the supplied video signal (VS) to the display device (11, 12) as a signal (DS) to be displayed when the detection signal (S18) indicates an object within the monitored area. A video display apparatus according to any one of the preceding claims, wherein the monitored area (200) corresponds to an area which is within a predetermined distance from the screen. A video display apparatus according to claim 6, wherein the predetermined distance is less than 4 times, preferably less than 2 times, a screen diagonal (d2) of the screen (11). A video display apparatus according to any one of the preceding claims, wherein the distance detecting means comprises an infrared sensor or an ultrasonic sensor. A video display device according to any one of the preceding claims, wherein the distance detecting means comprises a motion sensor for detecting moving objects in the monitored area. A video display apparatus according to any one of the preceding claims, adapted to generate the video signal (DS) to be displayed from the input video signal (VS) in accordance with a default if the detection signal (S18) indicates that no signal is present for a period longer than a predetermined period of time Object was detected in the monitored area. Video display device according to one of the preceding claims, in which the screen is a flat screen, in particular an LCD screen or a plasma screen. Method for processing a video signal (VS) and displaying an image content represented by the video signal (VS) on a screen, comprising the following method steps: Monitoring a predetermined area in front of the screen (11) for the presence of objects, - Processing the video signal (VS) depending on the detection of objects in the monitored area (11). Method according to Claim 12, in which the video signal (VS) is processed in order to obtain a processed signal (FS), the image content represented by the processed signal (FS) being displayed on the screen (11) and the processing being dependent on the detection of an object in the monitored area is carried out. A video display apparatus according to claim 13, wherein processing of the video signal (VS) is omitted when an object within the monitored area is detected. Method according to one of claims 12 to 14, wherein the monitored area corresponds to an area within a predetermined distance from the screen. The method of claim 15, wherein the predetermined distance is less than 4 times, preferably less than 2 times a screen diagonal of the screen (11). A method according to any one of claims 12 to 16, wherein the input video signal (VS) is processed according to a default if no object in the monitored area has been detected for a period longer than a predetermined period of time. Method according to one of Claims 12 to 17, in which the screen is a flat screen, in particular an LCD screen or a plasma screen.

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